GB2460965A - Fibrillar albumin protein for use in medicine - Google Patents

Abstract

An isolated fibrillar albumin for use in medicine is disclosed. The albumin may be used in the treatment of cancer, particularly kidney, breast, lung or ovarian cancer, and induces cell death by modulating an Akt signalling pathwat. Alternatively the fibrillar albumin may be used as an adjuvant.

Description

METHOD OF PRODUCING FIBRILLAR PROTEJNS

BACKGROUND

[0001] Studies have found that some.prdteins form fibdilar structures after glycatiori (Bouma, et al. J Bib Chem 278(43):41510A1819: 2003), incubation at high temperature (Sagis, et al, LangmUir 20(3):924927: 2004), or sonication (Stathopulos, et a!. Protein Sat 13(11):3017-3027: 2004), However, these methods often require a high concentration of protein, vigorous shaking or agitation, assistance of fibril seed and gen&ally take a long time, ven up to month of incubation at ambient temperature. in addition, unIes aggregtes form' and precipitate out, such methods cannot isolate fibrillar from ponfibril1ar proteins.

SUMMARY -

[00023 A method is disclosed for changing a globular protein structure into a fibrillar protein structure, The method comprises the steps of providing a globular protein, forming a solution containing the globulr protein, adding a detergent to the solution containing the globular protein, and applying the soLution to a molecular sizing column with a pore size of at least 70 kDa.

[0003] In another aspect of the present disclosure, a method is disclosed for treating cancer. The method comprises the steps of providing a protein, changing the protein into a fibrillar structure, and administering a therapeutically effective amount of the fibrillar structure protein to a patient in need thereof, [0004] A method for producing an adjuvant is disclosed. The method comprises the steps of providing a protein, and changing the protein into a fibrillar structure.

I

DRAWINGS

[0005] The above-mentioned features and objects of the pr!sent disclosure will become more apparent with reference to the following description taken in conjunction with the accompanying drawings wherein like reference numerals denote like elements and in which: (0006] Figures la-e are TEM images of various proteins.

(0007]. Figure If is a graph illustrating the fluorescence level.s of ThT in relation to different concentrations of BSAS2OO.

(0008] Figure 2a is a TEM image of BSA-Zwit, (0009] Figure 2b is a TEM image of BSA-HW558.

(0010] Figure 3a is a bar graph Ulustrating cell cytotoxicity in relation to different concentrations of various proteins.

[0011] Figure 3b is a Western blot illustrating the effect of BSA-S200 on Akt with varying concentrations of anti-cd5131 antibodies.

(0012] Figure 3c is a bar graph illustrating bell cytotoxicity in relation to different concentrations of BSAS2OO and anti-a51 antibodies.

(0013] Figure 4 is a collection of bar graphs illustrating cell cytotoxicity in relation to the ROD motif and molecular A'eight of various proteins.

[0014) Figure 5a is a graph illustrating the fluorescence levels of ThT in relation to different concentrations of L3SA-8200.

[0015] Figure Sb-f are TEM images showing the structure of various proteins.

[0016] Figure 6a-c are graphs illustrating cell cytotoxicity in relation to treatment with different concentrations of various proteins, [0017) Figure 7a-b are microscope images of BHK21 cells incubated with various proteins.

(0018] Figure 7c is a graph illustrating caspase-3 activity.

[0019] Figure 8a is a graph illustrating cell cytotoxicity in relation to various concentrations of l3SAS2OO.

[0020] Figure Bb is an immunoblot illustrating the binding of integrin a51 protein with BSA-S200 and native BSA.

[0021] Figure 9a-cl are Western blots of BHK-21. cells treated with F..BSA and antiS integrin a531 antibody.

[0022] Figure 10 is a graph illustrating the fluorescence levels of ThT in relation to different concentrations of various proteins.

[0023] Figure 11 is a graph illustrating cell cytotoxicity in relation to different concentrations of various proteins, [0024] Figure 1 2a-e are TEM images howing the structure of various proteins.

[0025] Figure 12f-g are graphs illustrating the fluorescence levels of ThT in relation to different concentrations pf BSA-S200 and FN-S200.

[0026] Figure 13a are immuhoblots illustrating the binding of antiTLR2 antibody and antkFMDV antibody to lysate from RAW 264.7 cells, [0027] Figure 13b-g are immunofluorescence staining im.ages of BSA and BSA-5200.

[0028] Figure 14a-d are graphs illustrating NFKI3 reporter luciferase levels, of cells treated with various proteins.

[0029] Figure ISa-c are graphs illustrating lL-6 and lL-8 expression of RAW 264.7 cells incubated with different concentrations of various proteins.

DETAILED DESCRIPTION

[0030] The present disclosure relates to a process of producing fibrillar proteins and methods of treatment using fIbrillar proteins. This process has advantages whidh include ease of control, homogeneity of production, and feasibility of scaling up.

Moreover, fibrillization of proteins can be induced by this process without the assistance of fibril seed. Even a tiny amount of protein would be applicable to this process. As used herein, "protein includes one or more proteins, protein fragmeAts; polypeptides or peptides. Proteins include both synthetic and naturally occurring proteins.

[00313 According to the present disclosure, a method is disclosed for changing a gJobular protein structure into a fibrillar protein structure. The method can be used to convert native proteins, regardless of their sequence, into fibrillar form in a simple and rapid manner. The method comprises the steps of providing a globular protein and applying the protein to a molecular sizing column with a pore size of at least 70 kDa. In an exemplary implmentation, the method comprises the steps of providing a globular protein, forming a solution containing the globular protein, adding a deterent to the solution containing the globular protein, and applying the solution to a molecular sizing column with a pore size of at least 70 kDa.

[0032] In another aspect of the present disclosure, a method is disclosed for changing an unfolded protein structurp into a fibrillar protein structure, The method comprises the steps of providing an unfolded protein and applying the protein to a molecular sizing column with the presence of urea. in an exemplary implementation, the method comprises the steps ? providing.an unfolded protein and applying the protein to a molecular sizing column with a pore size of less than 70 kDa in the presence of about SM urea. The added urea to unfold the protein need not be limited to 3M. Other molar ratios will result in unfolding, the degree of unfolding is protein specific.

[00333 Globular proteins, also known as spheroproteins, are one of two main tertiary structure classes of proteins, Globular proteins are generally soluble and form spheriodal molecules in water. They have a complex secondary structure comprising a mixture of secondary structure motifs, such as o-helices, 13sheets, and loop structures.

The other main tertiary structure class of proteins are fibrillar prbteins, or fibrous proteins. Fibrillar proteins are generally insoluble and have an elongated shape. They have a simpler secondary structure and are often based on only one type of sedondary structure motif.

10034] In exemplary implementations1 the globular protein is an albumin, fibronectin, recombinant caspid protein VPI of the foot-and-mouth-disease virus (rVP1), recombinant caspid protein VP2 of the foot-and-mouth-disease virus (rVP2), recombinant caspid protein VP3. at the foot-and-mouth-disease virus (rVP3), or precursor protein P1 of VP1, VP2, VP3, and VP4. The protein may also be a chimeric protein comprising parts from VPI, VP2, VP3, and/or VP4, for example VP42, which comprises parts of both VP2 and VP4. Other globular proteins may also be used, including both naturally-occurring proteins and ynthetic oUgopeptides. The globular protein is generally dissolved into solution form. In an exemplary implementation, the globular protein is dissolved in PBS.

(0035] Surfactants, also referred to herein as detergents, are substances that lower the surface tension of water and increase the solubility of organic compounds.

Detergents may be ionic, which includes cationic, anipnic, and zwitterFonic detergents, as well as non-ionic. Detergents play a role in disrupting non-covalent bonds in proteins, thereby denaturing the proteins such that they lose their native shape or * conformation. In exemplary implemeAtations, the detergent used is sodium dodecyl sulfate (SDS), obtained fro.m Sigma. In other exemplary implementations, the detergent used is Zwittergent 3-14, obtained from Calbiochem.

[0036] Amyloids are fibrous cross-�3 protein aggregates. Numerous proteins are capable of converting to amyloid-like fibrils with characteristics that include fibrillar morphology, protofilament substructure, cross-p diffraction pattern, an increase in 3- * structure, Congo red binding, and ThT binding. In exemplary implementations, the globular protein is converted to form amyloid-like fibrils, hich allows for the converted protein! to be identified by its amyloid-like properties.

[0037] Chromatography is used to separate the qonverted fibrillar proteins from the solution. Generally, chromatography is accomplished using columns, though other methods.such as those used for thin-layer chromatography may also be possible.

Chromatography techniques include size exclusion, affinity, and ion-exchange. Though a batch-type production of fibrillar proteins is possible, utilizing a column process allows globular proteins to be converted into a fibriltar form in a rapid, steady, efficient, and continuous manner. Scaling-up this process is also posible with the usage of columns.

[0038] In exemplary implementations, size exclusion chromatography with bead pore sizes of at le?st 70 kDa is used. The bead pore size used may vary depending on various characteristics of the globular protein, for example its size. The pore, size plays a roleS in allowing proteins to enter the bead matrix, thus leading to mechanical forces that contribute to protein unfolding/folding and enhance fibrillogenic ensemble. In exemplary implementations, the molecular sizing column used is a Superdex 200) in other exemplary implementations, the molecular sizing column used is a HW55S.

[0039] For column chromatography, a buffer solution is used to elutb the column. In exemplary implementations, the molecular sizing column is eluted with a buffer solution containing 25 mM Tris-HCL, pH 8.0, 1 mM EDTA, 0.1 M NaCI, and 0.05% SbS. In other exemplary implementations, the the molecular sizing column is eluted with a buffer solution containing 25 mM Tris-HCL, pH 8.0, 1 mM EDTA, 0.1 M NaCl, and 0,05%. Zwittergent 3-14.. The eluant may be collected as fractions and the fractions containing the, fibrillar protein subsequently pooled together. The pooled fraption may then be further filtered to purify and isolate the fibrillar protein, for example dialyzing against PBS to remove SDS.

[0040] In another aspect of the present disclosure, a method is disclosed for treating cancer. The method comprises the steps of providing a protein, changing the protein into a fibrillar structure, and administering a therapeutically effective amount of the fibrillar structure protein to a patient in need thereof. Conversion of proteins into fibrillar form increases their cytotoxic effects on target cells.

[0041] In exemplary implementations, the cancer is a kidney, breast, lung,' or ovarian cancer. The protein used to treat the cancer is an albumin, fibronectin, rVPI, rVP2, rVP3, P1, or chimeric protein comprising parts from VPI, VP2, VP3, andlor VP4. In exemplary implementations, the fibrillar protein plays a role iii inducing cancer cell apoptosis by modulating the' Akt signaling pathway. In some instances, the fibrillar protein modulates integrin a531 which. leads to the deactivation of Akt. In other instances, fibrillar albumin binds to integrin and causes cellular apoptosis mainly through the i�tegri n/FAKIAktiGSK-33/caspas&3 pathway.

[0042] According to exemplary implementations, the protein may be administered as part of a composition. The composition may be in various forms including powders, creams, gels, salves, ointments, solutions, tablets, capsules, sprays, and patches.

Vehicles and carriers may be used for delivery of the composition to the pafient. Such carriers include solubilizing agents, diluents, and dispersion media. These carriers are biocompatible, pharmaceutically acceptable, and do not alter the treatment characteristics of the fibrillar protein. Excipients, adjuvants and other ingredients may also be included in the composition.

(0043] Administration of the composition may be. achieved through various methods to different parts of the body, including intravenous, intradermal, subcutaneous, oral (e.g., inhalation), transdermal (i.e., topical), transmucosal, and rectal administration.

[0044] The phrase "therapeutically effective amount" refers. to an amount that produces some desired effect at a reasonable benefit/risk ratio applicable to any medical treatment. The effective amount may vary depending on such factors as the disease or condition being treated, the particular targeted constructs *being administered, the size of the subject, or the severity of the disease or condition, One of ordinary skill in the art may empirically determine the effective amount of a particular compound without necessitating'undue experimentation.

[0045] The protein for treating the cancer may be selected based on the severity of the disease and the desired cytotoxcity to the cancer cells. In exemplary implementations, for greater cytotoxicity to the cancer cells, a protein with an ROD motif and/or greater molecular Weight is selected.

[0046] In another aspect of the present disclosue, a method for producing a vaccine is disclosed. The method comprises the steps of providing a protein, and changing the protein into a fibrillar structure. This fibrillar structure protein may then be administered to a patient as a vaccine against a specific disease.

[0047] In another aspect of the present disclosure, a method for producing a vaccine or immunologic adjuvant is disclosed. The method comprises the steps of providing a 7.

protein, and changing the protein into a fibriUar structure. An adjuvant may not have any specific antigenic effects in itself, but may stimulate the immune system, increasing the response to a vaccine, In exemplary implementations, the protein activates innate immune responses through toll-like receptor 2 (TLR2). The fibrillar protein activates TLR2 to induce cytokine production while the protein in its native state does not.

* E0048] ln other implementations, an antigen may be converted into fibrillar form to have both antigenic and adjuvant effects, making the antigen a vaccine without the need for additional adjuvants to boost immune responses

Examples

* [0049] A more complete understanding. of the present disbiosure can be obtained by reference to the following specific examples and figures. The examples and figures are described solely for purposes of illustration and are not intended to limit the scope of the disclosure. Changes in form and substitution of equivalents are contemplated as circumstances may suggest or render expedient. Although specific terms have been employed herein, such terms are intended in a descriptive sense and not for purposes of limitations. Modifications and variations of the disclosure as hereinbefore set forth can be made without departing from the spirit and scope thereof, and, therefore, only such limitations should be imposed as are indicated by the appended claims.

Example I

Materials and Methods 10050] Materials. The antibodies against phospho-Ser4"3 Akt was obtained from Cell Signaling Technology, Inc. Zwittergent 3-14 was obtained from Calbiochem.

Fibronectin (FN), Anti-actin antibody, anti-integrin ct5J31 polyclonal antibody (function-blocking antibody), horseradish peroxidase-coupled anti-mouse lgG secondary antibodies, horseradish peroxidase-coupled anti-rabbit lgG secondary antibodies and MU assay kit were purchased from Chemicon International, Inc. BSA was purchased from Rio Basic inc. Thioflavin T (ThT) and sodium dodecyl sulfate (SOS) were purchased from Sigma. a

[0051]. Expression and purification of recombinant VPI and VP3. VPI and VP3 are the components of capsid proteins of foot-and-mouth disease virus (FM DV). The recombinant VPI proteins, after expressed in E. co/i., were purified and refolded according to a procedure described previously. (Yang, et a!. Journal of Gene Medicine 7:708-717: 2005). The VP3 gene was amplified by PCR from the plasmid pJBSYI-PI with 5'-CCGGGATCCMGCTTGGGA1TFTCCCCGTGGCA-3' and 5'-CCGCTCGAGTT GGGTTCGGGCGTCGAC-3' as primers, which introduced a BamHl site at the N-terminus and a Xhol site at the C-terminus, respectively. After restriction enzyme digestion, the amplified gene was ligated between the BamHl and the Xhol site of pET24a (+) (Novagene, WI) and transformed into DH5a competent cells. The identified positive clone, verified by sequencing, was used tO transform E. coil 6L21 (DE3) competent cells. The recombinant VP3 protein, after expressed in E. coil,, was also purified and refolded according to the probedure described previously (Yang, et al. Journal of Gene Medicine 7:708-717: 2005).

[0052] Preparation of BSA fibrillar proteins. Twenty mg BSA (from Bio Basic Inc.) was dissolved in 10 ml PBS and SDS (10%; w/v) was then added until it reached the final concentration of I %. After sonication for 5 mm in water sonicator, the SDS-containing protein solution was subsequently applied to a Superdex-200)column (2.6 cm x 100 cm, Amersharn Biosciences), which was previously equilibrated with a buffer solution containing 25 mMTris-HCI, pH 8.0, 1 mM EDTA, 0.1 M NaCI, and 0.05 % SDS.

Fractions containing BSA were pooled. The pooled fractions were then dialyzed against PBS to remove SDS. Fibronection fibrillar protein was also prepared by using the same protocol.

[0053] TransmissIon electron microscope (TEN9. For transmission electron microscope (TEM) analyses of fibrillar proteins, I mg/mI of proteins were applied to 200-mesh carbon-coated copper grids. Excess samples were removed and the grids were air-dried. . The protein-bearing grids were negatively stained with I % (WIV) phosphotungstic acid for I mm. Transmission electron micrographs were observed at 20,000-1 50,000x magnification at 75 kV on a Hitachi H-7000 electron microscope.

(0054] Thioflavn I (TIff) fluorescence, Thioflavin T (ThT) is one of the markers for amyloid-like properties. For fluorescence measurements, increasing concentrations of proteins (1.tM, 3 jM, and 5 pM) were incubated with 20 i.tM ThT. After I h of incubation at room temperature, fluorescence was measured in triplicate on a Wallac VICTOR2 1420 Multilabel Counter (Perkin Elmer life science). Exoitation and emission wavelengths were 355nm and 535nm, respectively. ThT background signal from buffer was subtracted from corresponding measurements.

10055] Cell lines and treatment. BI-lK-21 cells (from hamster kidney) and T47D cefl lines (human breast duct carcinoma) were maintained at 37°C in Dulbecco's modified Eagle's medium (DMEM) supplemented with 10% fetal bovine serum (FBS), 2 mM L-glutamine, 100 units/mI penicillin, and 100 tg/ml streptomycin. Cells were cultured in monolayer cultures overnight. *The cells were washed twice with PBS and treated with proteins in DMEM without FI3S for!ndicated time, Some of the cells were then lysed with 0.2 ml of lysis buffer (Pierce) at the indicated time points, and 20-pI samples were analyzed for Akt phosphorylatio.n by Western blotting.

10056] Cell survival assay. Cell survival was determined by MTT colorimetric assay.

Exponentially growing cells.(1x104 for BHK-21 sells; 1.25>'10 for T47D cell lines) were plated in 96..well plates in DMEM with 10 % FBS and, after 24 h of growth, treated with a series of concentrations of fibritlar proteins in DMEM without FBS for 8 h at 37 °C, After treatment, the MU solution was added to each well (0.5 mg/mI) and incubated for 4 h. The viable cell number is directly proportional to the production of formazan which, following solubilization with isopropanol, can be measured spectrophotometrically at 560 nm in an ELISA plate reader.

(0057] SOS-PAGE and Ininiunoblot analyses. Samples were separated on 10% SDS-PAGE gels in 1-loefer vertical gel apparatuses (Amersham Biosciences), followed * by electrophoretic transfer to pclyvinylidene difluoride membranes (Pall Corporation).

The membranes were blocked with 5% skimmed milk powder in PBST for 1 h, and incubated with primary antibody (5-10 pg/mi) in blocking buffer. The membranes were then washed in PBST, followed by incubation with horseradish peroxidase-conjugated secondary antibody (Chemicon). The antibodies were detected with chemiluminescence (SuperSignal West Pico, Pierce) by exposure to Biomax ML film (Eastman Kodak).

Figures R1rn. e-rn- (0058] Figure 1. $uperdex-2O0 chromatography but not Superdex-75j chromatography promotes the formation of fibrillar proteins. TEM images. show fibrillar structure of BSA-S200 (A) but globular structure of BSA-S75 (8). BSA, as a control, also displays globular structure (C). (0) and (E), VPI-S200 and VP3-S200, two recombinant proteins from E. co/i., exhibit fibrillar structure by TEM assay. F, incubation of increasing concentrations of BSA-S200 with 2OpM amyloid-specific dye ThT results in increased, levels of fluorescence of ThT, as compared to BSA and BSA-S75. The values are from three mea�urements. Data represent means � S.D. (n=3).

H (0059] Figure 2. The formation of amyloid-like fibrils is irrespective to detergent or bead matrix. TEM images show fibrillar structures df BSA-Zwit (A) and BSA-HW55S (B).

(0060] Figure 3. Fibrillar proteins-induced cell death is via the Akt signal * pathway, Bl-IK-21 cells were treated with various concentrations of BSA, BSA-575, BSA-S200, BSA-Zwit, or BSA-HWS5S for 8 h in serum-free medium. After treatment, cell survival was determined by the MU assay. Data represent means � S.D. (n=3) (A). BHK-21 cells were pre-treated with or without anti-a5131 antibodies for 30 mm, then treated with 3 p.M BSA-S200 for indicated time. After treatment, cell lysates were analyzed by Western blotting using anti-phospho-Akt (p-Akt) as the primary antibodies (8). 0, T47D cell lines were pre-treated with or without anti-cx5131 antibodies for 30 mm, then treated with varying concentrations of BSA-S200 for 8 h in serum-free medium.

After treatment, cell viability was determined by the MU assay. Data represent means � S.D. (n=3).

(0061] Figure 4. The effect of ROD motif and molecular weight of fibrillar protein * on the cytotoxicity of BHK-21 cells. (A), BHK-21 cells were treated with 0.5 p.M VP1- 5200, VP3-S200, BSA-S200, FN-S200, or FN for 8 h in serum-free medium. After treatment, cell survival was determined by the MU assay. Data represent means � S.D. (n=3). (B), BHK-21 cells were treated with increasing concentrations of VP3-S200 for B h in serum-free medium. After treatment, cell survival was determined by the MU assay. Data represent means � S.D. (n3).

Results [0062] Effect of column bead pore size and bead matrix on the formation of amyloid-like fibrils. Bovine serum albumin (BSA) is a globular protein. SDS was added to the BSA solution and they were applied to a Superdex -200J column (with pore size up to 600 KDa) and then eluted with a buffer solution containing 25 mM Tris-HCI, pH 8.01 1 mM EDTA, 0.1 M NaCI, and 0.05 % SDS. The BSA protein obtained from Superdex-200) column (BSA-S200) exhibited fibrillar structure as shown by Transmission electron microscope (TEM) analyses (Figure. IA) and enhanced fluorescence of amyloid specific dye Thioflavin T (ThT) in a dose-dependent manner (Figure IF). To investigate the effect of column bead pore size on the formation pf t-rrn fibrils, a Superdex-75jcolurnn was used with a smaller pore size of only 3-70 kDa MW range for this study (Table 1). TEM analyses revealed that BSA eluthd from Superdex (BSA-875), like BSA, showed globular structure (Figure 1 B and C) and did not enhance fluorescence of amyloid specific dye ThT (Figure IF). Recombinant VPI (rVPI) and recombinant VP3 (rVP3) expressed in E.Coli, extracted by urea and purified by affinity co!umn, were also subjected to detergent-assisted Superdex-S200jcolumn chromatography as described. TEM data showed VPI-8200 (Figure ID) and VP3- 8200 (Figure IE) also exhibited fibrillar structure. The effect of column bead matrix on.

fibrillar protein formation then examined. FIWS5S beads that have similar bead properties (with pore size up to 700 KDa) as Superdex-200j but different matrix composite (Table 1) were used for* comparis�n. BSA eluted from HWSSS chromatography (BSA-HW555) displayed fibrillar structure as monitored by TEMg (Figure 213). These data suggest that molecular sizing column such as Superdex-200j * (S200) and HW558 that.have pore size more than 70 kiJa promotes the formation of arnyloid-ilke fibriflar proteins.

Column chromatography * Properties --Superdex 200 fl -Superdex Company Arnersltam Biosciences Mnershmarn Biosciences TOSOR Corporation Matrix cross-linked agarose and cross-fluked against and Hydroxyhated muetimacrylic dextran dextran polymer Particle size 24-44 uu 24-44 jun 20-40 jun Pore size 10-600 kfla MW range (prqtelns) 3-10 hcDa MW range (proteIns) 1-700 kDa MW range (proteins) Table 1. Comparison of properties of SuPerdox-20$i Superdex-75J, and HW55S chromatography.

10063] Effect of detergent on the formation of amyloid-like fibrils. Zwittergent 3- * 14. a detergent that retained its zwitterionic character over a wide pH range, presumably does not irreversibly bind to either anionic or cationic compounds. Here the gtni effect Of Zwittergent 3-14 on the formation of fibrillar BSA from Superdex-209 chromatography was investigated. Zwittergent 3-14 was added to the BSA solution (1 % Zwittergent 3-14) and applied to a Superdex -200jcolumn eluted with a buffer solution containing 25 mM Tris-HCI, pH 8.0, 1 mM EDT/k, 0.1 M NaCI, and 0.05 % Zwittergent 3- 14. The BSA protein obtained from Superdex-200J column with Zwittergent 3-14 (BSA-Zwit) exhibited fibriliar structure under TEM (Figure 2/k). These data suggest that detergent such as SDS and Zwittergent 3-14 and bead pore size are important, for fibrillar protein.formation.

[0064] Fibrillar proteins induced cell death via deactivating Akt. it has been shown previously that rVP1 is cytotoxic to BHK-21 cell as well as various cancer'cell lines. To examine whether fibrillar proteins induced by our method are cytotoxic to cells, BFIK-21 cells were treated with various concentrations of BSA-S200, BSA-Zwit, or BSA-HW55S in serum-free medium. It was found that BSA-S200, BSA-Zwit, and GSA-HW55S all caused cell death in a dose-dependent manner (Figure BSA-Zwit exhibited the strongest cytotoxicity followed by BSA-S200, BSA-l-1W55S exhibited the weakest cytotoxibity to cells. To demonstrate if fibrillar proteins-induced cell death is via Akt signaling pathway, BHK-21 cells were pre-treated with or without anti-o51 antibodies for 30 mm, then treated with 3 1M BSA-8200 for indicated time. Data revealed that BSA-S200, like rVPI-S200 and rVP3-S200, deactivated Aid in a time-dependent manner. Besides, the inhibitory effect of BSA-S200 on Akt was reversed by pretreatment of indreasing concentrations of anti-u531 antibodies (Figure 3B).

[0065] Moreover, the effect of anti-a5131 antibodies on cell death induced by fibrillar proteins was examined. Pretreatment of T47D cell lines (a breast cancer line) with increasing concentrations of anti-a5fSl antibodies for 30 mm, followed by incubated cells with BSA-S200 for S h in serum-free medium. The cell viability results indicated that pre-treatment of T47D cell lines with anti-u531 antibodies attenuated the cytotoxic effect of BSA-5200 (Figure 3C). These data suggest that fibrillar proteins are cytotoxic to cancer cells by modulating Akt signaling pathway.

(0066] Effect of RGD motif and molecular weight of fibrillar proteins on cytotoxicity of cells. ROD motif is a ligand for integrins. lt has been shown that fibrillar proteins* induced cell death via modulating integrin/Akt signaling pathway.

Fibronectin, a protein with an ROD motif and a molecular weight of 450 kD, also grrr exhibited fibrillar structure when eluted from Superdex200J(FN-S200) in the presence of SDS (data not shown), The cytotoxiciUes of four fibrillar proteins i.e. rVPI-8200, FN- 5200, rVP3-S200 and BSA-S200 on BHk-21 cells were compared (Figure4A). It has been found that fibrillar proteins with ROD motifs1 like rVPI-S200 and FN-S200, were more cytotoxic than those without ROD motifs such as BSA-S200 and rVP3-S200. In addition, fibrillar proteins with higher molecular weight were more cytotoxic than those' with lower molecular weight. FN-8200 (MW 450 kD) exhibited more cytotoxicity than that of VPI-5200 (MW 26 kD) (Figure 4A). BSA-S200 (MW= 66 kID) displayed more cytotoxicity than that of VP3-S200 (MWz 26 KU) (Figure 4 A). Although VP3-S200 did not show any cytotoxicity at the concentration of 0.5i.tM as shown in Fig. 4A, higher concentrations of VP3S200 did induce cytotoxicity in a dose-dependent manner (Figure 4B), Taken together fibrillar proteins with a ROD motif and higher MW possess more cytotoxicity to cells than those without ROD motif and with lower molecular weight.

10067] In vitro and in vivo studies of fibrillar protein rVPI as anti-cancer agent.

Recombinant VPI (rVPI) is more effective than doxorubicin and taxol in inhibiting growth of cancer cells in vitro, The cytotoxic effect of rVPI in vitro was evaluated using MU reagents. The ICSO values of rVPI were much lower than that of doxorubicin in four different lung cancer and an ovarian canOer cell lines, including A549, H 146, H23, H23/0.3, and SK-OV-3 cells, as well as a norma! lung fibroblast cell line, Wl-38. Higher inhibitory effect was also seen in SK-OV-3 cells treated with rVPI compared to treatments of doxorubicin and taxol. The 1C50 value of rVPI for BNL cells was lower than that for AML 12 cells, a normal murine hepatocyte cell line, indicating that rVPI was more cytotoxic to murine HCC cells than to normal hepatocytes.

(0068] Treatments of rVPI inhibit tumor growth and extend survival of mice with HCC. BNL cells were injected subcutaneously into BALBIc mice nd a tumor volume of 250 mmz was detected approximately two weeks after tumor induction. Four groups of mice were given intratumoral injection of rVPI (25 mg/kg., 75 mg/kg, or 100 mg/kg) or PBS thrice weekly for three weeks, Mice treated with rVP1 had tumor volumes much smaller than that of untreated mice, with higher dosages of rVPI showing more potent effect. The difference in tumor volume between control and treatment groups was statistically significant (25 mg/kg, P < 0.05; 75 mg/kg and 100 mg/kg, P < 0.001).

(0069] In another similar experiment with only two groups of mice, the tumor volumes of mice treated with rVPI (75 mg/kg) were also much smaller than that of control mice receiving PBS. The median survival of mice treated with rVPI or PBS was 11.5 and 13.5 weeks respectively. Difference in survival between the two groups was calculated by log-rank test, and the result was statistically significant.

[0070] Treatments of rVPI increase survival rate of nude mice with human ovarian tumors, Treatments of rVPI were performed by 2-stage intraperitoneal injections, Nude mice with human ovarian tumor received first injection four hours after ascites iriducflon with ip injection of SK-OV-3 cells, and different dosages of rVPI (15, 50, 150 mg/kg) were injected every 48 hours for 10 times, Treatments were resumed after lO4ay suspension and injections of rVPI were repeated every 48 hours for 5 times, Mice receiving rVPI injections (15 and 50 mg/klg) had higher survival rates compared to control mice.

* Discussion [00711 The method commonly used for preparation of amyloid fibrils is aging at 37°C for a period of time, Most of the cases, it takes days to weeks for aging. Reports have shown that fibril formation can be accelerated by SOS; however it still needs vigorous stirring for overnight at 37°C, 2 days of incubation at room temperature, or with the assistance of fibril seeds. Moreover, all of these methods belong to batch-type production.

[0072] In the present study, a column is develo�ed process which promotes fibrillar protein formation in the presence of detergent (SOS or Zwittergent 3-14) without fibril seeds (Figure 1 A, 0, and E; 2 A and B). Also, byusing this column process, globular proteins are converted into fibrillar forms in a rapid, steady, efficient, and continuous manner, In addition, this process is also prone for scale-up. Previous studies has demonstrated that numerous proteins with diverse structures, including both disease and nondisease associated proteins, are capable of forming amyloid, A variety of proteins have been found with different sequences and structures that could be applied to this column chromatography process and converted into fibrillar proteins, for examples, BSA-S200, rVPI-5200, rVP3-S200 and FN-S200 (Figure 1 A, 0, and E). To reveal the optimal conditions bf column-induced fibril formation, a study was conducted regarding some factors that might affect the flbril formatiOn in this process, 100731 Results suggested bead pore size plays a crucial role in the column-induced fibril formation. Superdex-200j column has a bigger bead pore size than that of R-cTh Superdex-75jcolumn (Table 1). An explanation as to why Superdex 75Jcolumn could not promote fibril formation (Figure 1 B) is that the limited bead pore size constrains the * proteins from entering the bead matrix, thus leading to the lack of mechanical forces which might contribute to cause protein unfolding/folding and enhance fibrillogenic ensemble. Thken together, it is determined that mechanical force and detergent plays a role in the column-induced fibril formation.

[0074] Integrins are a family of integral membrane receptors that function as cell adhesion molecules. Each integrin is a heterodimer formed by the non-covalent association of a-and 13-subunits. In mammalian species, the integrin family consists of 24 different heterodimers, each of which has a distinct tissue distribution.. Integrins contribute to a variety of process, including adhesion between cells and the extracellular matrix and induction of signal transduction pathways that modulate various processes, including cell proliferation,, morphology, migration, and apoptosis.

(0075] Previous studies have demonstrated amyloid fibrils are cytotoxic to neuron! cells. Previous studies also demonstrated that a2131 and czVf3l integrin signaling pathways rnediate amyloid-13-induced neurotoxicity. In this study, it was found that fibrillar proteins induced cancer cell death by modulating integrin cc5f3l (Figures 31k, 38 and 3C). Integrin signaling can activate the Akt.pathway.

[0076] Amyloid, regardless of source, is cytotoxic to neuron cells. The mechanism of amyloid-induced cytotoxicity may be related to interaction of amyloid-forming peptides with lipid membranes. However the cytotoxic effect of fibrillar protein on cahcer cell has not been reported. We found that SOS assisted column-induced fibrillar proteins displayed cytotoxicity in human cancer cell lines (Figure 3 �). BSA-S200 resulted in 70 % reduction of cell viability at. the concentration of2 iiM in T47D cell lines (Figure 3 C).

[0077] Finally, the cytotoxic effects of fibrillar proteins with an ROD motif were compared with those without an RGD motif. ROD motif is a ligand for integrins that modulates a lot of functions such as cell migration, adhesion, or proliferation. The results suggested that fibrillar proteins with ROD motifs displayed more cytotoxicity to cells as compared to those of fibrillar proteins without ROD thotifs (Figure 4 A. it was also found that molecular weight of fibrillar protein plays a role in cytotoxicity induced by fibrillar proteins (Figure 4 A).

Example Z

Materials and Methods 10078] Materials. The antibodies against phospho-Try5761571 FAK, phospho-Ser473 Akt, and phospho-Ser9 OSK-313 were purchased from Cell Signaling Technology (Beverly, MA, USA). The antibody against phbspho-Tyr397 FAK was obtained from Biosource (Camirillo, CA, USA). Zwittergent 3-14 was purchased from Calbiochem (San Diego, CA, USA). Integrin a5131 protein, anti-3-actin antibody, anti-integrin a5 antibody, anti-integ rin c5l3 I antibody (function-b locking antibody), horseradish peroxid ase-coupled anti-mouse IgO secondary antibodies, horseradish peroxidase-coupled anti-rabbit lgG secondary antibodies, and MU assay kit were pu!chased from Chemicon (Temecula, CA, USA). Anti-USA antibody was obtained from Molecular Probes (Eu9ene, OR, USA). USA was purchased from Bio Basic Inc. (Canada). A1325.35, purchased from Sigma (St. Louis, MO, USA), was dissolved in sterile double-distilled water and aged at 37°C for 3 days before use. Thioflavin T (ThT), sodium dodecyl sulfate (SDS), 4', 6' -Diamidino-2-phenylindole dilactate (DAPI), and other chemicals if not otherwi�e specified were obtained from Sigma (St. Louis, MO, USA). Superdex-2Oc Superdex-75)beads were obtained from Amersham Biosciences (Uppsala, Sweden), HW55S gel filtration bead was obtained from TOSOH Corporation (Shiba, Tokyo, Japan).

E0079] Preparation of fibrillar BSAs (F-BSA). Twenty milligrams of USA (Bio Basic Inc.) was dissolved in 10 ml of PBS with 1% SOS (wlv). The USA solution was 2-cm sonicated for 5 mm, and subsequently applied to a Superdex-209), or a HWSS5 column (2.6 cm x 100 cm), which was previously equilibrated with a buffer solution (25 mM Tris-HCI; pH 8.0, 1 mM EDTA, 0,1 M MaCi, and 0,05 % SDS). Fractions containing BSA were pooled. The pooled fractions were then dialyzed against PBS to remove SOS.

[0080] Transmission electron microscope (TEM). For Transmission electron microscope (TEM) analyses of fibriliar proteins, I mg/mi of proteins were applied to 200-mesh carbon-coated copper grids. Excess samples were removed and the grids were air-dried. The protein-bearing grids were negatively stained with I % (W/'!) phosphotungstic acid for I mm. Transmission electron micrographs were observed at 20,000-1 50,000x magnification at 75 kV on a Hitachi 1-1-7000 electron microscope.

(0081] Thioflavin I (ThT) fluorescence. For fluorescence measurements, increasing concentrations of proteins (10 l.tM, 20 jsM, and 40 IIM) were incubated with jzM ThT. After I h of incubation at room temperature, fluorescence was measured in triplicate on a Wallac VICTOR2 1420 Multilabel Counter (Perkin Elmer life science).

Excitation and emission wavelengths were 430nrn and 486nm, respectively. ThT background signal from buffer was subtracted from corresponding measurements.

[0082] Cell lines and treatments. BHK-21 cells (from hamster kidnQy; ATOC CRL- 1632) and T470 cells (human breast duct carcinoma; ATCO HTB-133) were maintained at 37°C in Dulbecco's modified Eagle's medium (DMEM) supplemented with 10% fetal bovine serum (FBS), 2 mM L-glutamine, 100 units/mI penicillin, and 100 p.gfml streptomycin. In brief, cells were seeded 24 hours prior to treatment, The cells were washed twice with PBS and incubated with proteins in serum-free DMEM for indicated time. Cells were then lysed with 0.2 ml of lysis buffer (Pierce) at the indicated time points, and 30 g of cell lysate was analyzed for FAK, Akt, and GSK-3f3 phosphorylation by Western blotting.

[0083] Cell survival assay. Cell survival was determined by MTT colorimetric assay.

Exponentially growing cells (1x104 for BHK-21 cells; 1.25x104 for T47D cells) were seeded in 96-well plates in OMEM with 10 % FBS and incubated for 24h. Treatment of cell with a series of concentrations of proteins was carried out in serum-free DMEM for 8 h at 37°C. After treatment, the MU solution was added to each well (0.5 mg/mI), followed by 4h incubation. The viable cell number is directly proportional to the production of formazan which, following solubilization with isopropanol, can be measured spectrophotometrically at 560 nm in an ELISA plate reader.

(0084] SOS-PAGE and Immunoblot analyses. Cell lysates were resolved by 10% SDS-PAGE in Hoefer vertical gel apparatuses (Arnersham Biosciences), followed by electrophoretic transfer to polyvinylidene difluoride membranes (Pall Corporation). The membranes were blocked with 5% skimmed milk powder in 5 mM Tris-HCI, pH 7.4, 136 (ttrn mM NaCI, 0.1% Tween-20J(TBST buffer) for I h, and incubated with primary antibody (5-10 jig/mI) in blocking buffer. The membranes. were then washed in TBST, followed by incubation *ith horseradish peroxidase-conjugated secondary antibody (Chemicon).

The antibodies were detected with chemiluminescence (SuperSignal West Pico, Pierce) by exposure to BiomaML film (Eastman Kodak).

(0085] Immunoprecipitation assay. Equal volumes (20 jil) of protein NC beads (Santa Cruz Biotechnology) were pre-coated with or without integrin a51 protein by anti-integrin u51. antibody. The resultant beads were then incubated with either globular BSA (G-BSA) or fibrillar BSA (F-BSA) overnight at 4°C. After incubation, the immunocomplexes were washed three times with PBS and revealed by immunoblotting with anti-integrin as and anti-BSA antibodies.

(0086] Caspase-3 activity assay. Caspase-3 activity was determined by the cleavage of the fluorometric substrate z-DEVD-AMC (Upstate Biotechnology) according to the manufacturer's intructions. In brief, cells were harvested and washed twice in PBS, and lysed in a lysis buffer (Pierce) supplemented with protease inhibitor mixture (Sigma). The lysates underwent centrifugation at 12,000 x g for 15 mm at 4°C, and protein concentrations in the supernatants were determined by use of Bio-Rad Protein Assay. An amount of 50 jig of the cell lysates were incubated with 72 jiM z-DEVD-AMC at room temperature for 15 miii in triplicate. Cleavage of z-DEVD-AMC was determined by measurement of emission at 460 nm after excitation at 380 nm with the fluorescence plate reader.

Figures R-rrn [0087] Figure 5. Effect of Superdex-200jchromatography on the formation of fibrillar BSA. (A) Incubation of increasing concentrations of I3SA-S200 with 20 jiM amyloid-specific dye: TIff resulted in increased levels of fluorescence of ThT, as compared to native BSA and BSA-S76 (relative unit I). A25.35 served as a positive control. Data represent means � S.D. (n=3). TEM images show structure of native BSA (B), BSA.-S200 (C), BSA-575fl3), GSA-HW55S (E) and BSA-Zwit (F).

(0088] Figure 6. Cytotoxic effect of Fibrillar BSAs. (A) BHK-21 cells were treated with various concentrations, of BSA, BSA-S75, BSA-8200, BSA-Zwit, or BSA-HW5SS for 8 h in serum-free medium and cell survival was determined by the MU assay, respectively. Data represent means � S.D. (n=3). (B) BHK21 cells were treated with increasing concentrations of A255 in serum4ree medium for 8 h. Data represent means � S.D. (n=3), (C) BHK-21 cells were treated with or without increasing concentrations of native I3SA (G-BSA) for. I h, followed by incubation with 0.5 jiM F-BSA in serum-free medium for 8 h. Data represent means � S.D. (n=3). Cell viability was determined by the MU assay.

(0089] Figure 7. Apoptotic effect of fibrillar GSA. (A) BHK-21 cells were incubated with I jiM native l3SA(G-13SA) or FBSA(BSA-S200) for 3 h. The cells' were observed under a fluorescence microscope, and their nuclei were stained with DAPI (magnification in all panels, x400). (B) BHK-21 cells were incubated with 40 jiM Aj3235 for 3 h. The cells were observed under a fluorescence microscope, and their nuclei.

were stained with DAPI (magnification in all panels, x400). (C) BHK-21 cells were cultured with 0.8 jiM G-BSA or F-BSA for 15 h in serum free medium, then, subjected to caspase-3 activity analysis. The caspase-3 activity was measured by fluorogenic substrate as described under Materials and Methods. Data represent the mean � SD of three experiments.

(0090] Figure 8. Interaction between fibrillar BSAs (F-GSA) and integrin a5H.

(A) T47D cell lines were pre-treated with or without anti-integrin a51 antibody for 30 mm, followed by treatment with various concentrations of F-BSA(BSA-S200) in serum-free medium for 8 h. After treatment, cell viability was determined by the MU assay.

Data represent means � S.D. (n3). (B) lntegrin a51 protein was linked to protein NG beads by anti-integrin cc51 antibody, and then incubated with F-BSA (BSA-S200) or native BSA (G-BSA) overnight. The immunocomplexes were separated by SDS-PAGE and immunoblotted (18) with anti-integrin a5 and anti-BSA antibodies.

t0091] Figure 9. FibrilIar BSA (F-BSA) induced cytotoxicity via the integrinlFAlQAkt pathway. (A) BHK-21 cells were treated with 3 tM F-BSA in serum-free medium for indicated time and cell lysates were analyzed by Western blotting using anw.phospho-FAK�ryr576/577) or anti-phospho-FAKTyr397) as the primary antibodies.

(B) BHK-21 cells were pre-treated with or without anti-integrin cx51 antibody for 30 mm, followed by treatment with 3 pM F-BSA in serum-free medium for indicated time. After treatment, cell lysates were analyzed by Western blotting using anti-phospho-Akt (p-Aid) and anti-phospho-GSK-3J3 (p-GSK-3p) as the primary antibodies. -actin served as internal control for normalization purposes. (C) I3HK-21 cell� were treated wIth increasing concentrations of native BSA in serum-free medium for I h and cell lysates were analyzed by Western blotting using anti-phospho-Akt (p-Akt) as the primary antibody. (D) BHK-21 cells were treated with or without anti-integrin c53I antibody in serum-free medium for I h and cell lysates were analyzed by Western blotting using anti-phospho-Akt (p-Aid) as the primary antibody.

Results �00921 Conversion of globular protein into fibril by column chromatography method. In this study, bovine serum albumin (BSA) was refolded by dissolving in I % SOS. solution, passing throuh a gel filtration column Superdex-200J and eluted with a buffer solution containing 25 mM Tris-HCI, pH 8.0, 1 mM EDTA, 0.1 M MaCi, and 0.05 % SOS. The refolded BSA protein obtained from Superdex-200J column (BSA-5200), like amyloid fibrils, exhibited enhanced fluorescence level of amyloid specific dye Thioflavin I (ThT) in a dose-dependent manner (Fig, 9A). In comparison, the native BSA before Superdex-200)1 column did not enhance the fluorescence level of ThT.

These results were substantiated by transmission electron microscope (TEM) analysis which showed that native BSA exhibited globular structure (Fig. 9B) whereas. BSA-8200 exhibited fibril structure (Fig. 9G).

[0093J To investigate the effect of, gel filtration column bead pore size on the formation of fibrils, BSA was �luted with same buffer through a gel filtration column with a smaller pore size (Superdex-7. TEM analyses revealed that BSA eluted from Superdex-75J (BSA-875), like native BSA, showed globular structure (Fig. 9D) and did not enhance ThT fluorescence (Fig. OA). The effect of column bead matrix on fibrillar. protein formation was further examined with a HW558 gel filtration column that has similar bead pore size as Superdex-200) but different matrix composite. (Table 1). ,Results showed that BSA eluted from HW558 chromatography.(BSAHW55S), like BSA-8200, displayed fibrillar structure as monitored by TEM$Fig. 9E). These data suggest that molecular sizing column such as Superdex-200j(S200) and HW558 that has pore size more than 70. kDa promotes the formation of arnyloid-like fibrillar proteins, in the + presence of low concentration of SDS detergent.

[0094] It was then investigated whether other detergents also have the �ame effect as; SDS. Zwittergent 3-14, a detergent that retains its zwitterionic character over wide pH ranges was tested. BSA solution in the presence of 1' % Zwittergent 3-14 was eluted ttfl\ from a Superdex -200jcolumn with a buffer solution containing 25 mM Tris-HCI, pH 8.0, 1 mM EDTA, 0.1 M NaCl, and 0.05 % Zwittergent 3-14, The BSA protein obtained from Superdex-200)column with Zwittergent 3-14 (BSA-Zwit), like BSA-S200, exhibited fibrillar structure under TEM (Fig. 9F). These data suggest that not only anionic detergents but also Zwitterionio detergents are effective in facilitating the fibrillar protein formation.

(0095] Fibrillar BSA induced apoptosis in BHK-21 cells. To examine whether fibrillar BSAs induced by our method are cytotoxic to cells, BHK-21 cells were treated with various concentrations of BSA-S200, BSA-Zwit, or BSA-HW5'SS in serum-free medium for 8 hrs. It was found that BSA-S200, BSA-Zwit, and BSA-FIW55S were all cytotoxic to cells in a dose-dependent manner (Fig, 6A). BSA-Zwit exhibited the strongest cytotoxicity among all tested. At 0.5 j.tM concentration, it induced near 100% cytotoxicity whereas BSA-S 200 induced 35% and BSA-HW55S induced 10% cytotoxicity.. The IC for BSA-Zwit, BSA-S200 and BSA-HWS5S was 0.2, 0.75 and more than 10 tM, respectively. As controls, two globuldr proteins, native BSA and BSA-S75 were used and found to induce little, if any, cytotoxicity to cells (Fig. GA).

interestingly, the cytotoxicity induced by all fibril I3SAs (F-BSA) in BHK cells was stronger than amyloid which induced merely 10% cytoxicity at �oncentration as high as jtM after B hrs incubation (Fig. SB). Pre-treating BHK-21 cells with increasing concentrations of native BSA did not reverse the cytotoxicity induced by I3SA-8200 (Fig. SC). To examine whether F-BSA-induced cytotoxicity is correlated with cellular apoptosis, DAPI staining and caspase-3 activity were measured. Results showed that fibriilar BSA induced nuclei condensation (Fig. 7A) and increased caspase 3 activity (Fig. 7C) as compared with BSA and amyloid (Fig. 713). Taken together, these results sUggest that F-3M induces apoptosis of cells and this effect of F-BSA is not reversed by native BSA.

[0096] Fibrillar 138A induced apoptosis via integrin/FAKJAktIGSK-3j3 pathway. In addition to BHK21 cells, F-BSA.was also cytotoxic to cancer cells such as T47D cells (a breast cancer line) as shown in Fig. BA. To examine whether the apoptotic effects of F-BSA is via integrins that are known to modulate various processes such as cell proliferation, morphology, migration, and apoptosis, T47D cells were pretreated with increasing concentrations of anti-a51 antibody for 30 mm, followed by incubation with F-BSA (e.g. BSA-S200) for B h in serum-free medium. The cell viability results indicated that pre-treatment of T47D cells With anti-o5f31 antibody diminished the cytotoxic effect of F-BSA (Fig. BA). The interaction between F-BSA and integrin was further verified by immunoprecipitation method. Incubation of control beads or iptegrin o5131. protein-linked beads with BSA or F-I3SA revealed that F438A but not BSA bound to integrin a51 (Fig. 813).

[0097] It was then investigated whether the molecules involved in the cascade of integrin signaling pathway such as focal adhesion kinase (FAK), Akt and GSK-313, are affected by F-GSA. Results showed that F-GSA dephosphorylated FAK at tyosine position 397 (Tyr397) but not at position 576/577 FAK(Tyr576/577) in a time-dependent * manner (Fig. 9A). Western blot also revealed that.F-BSA dephosphorylated Akt as well as GSK-3 time dependently (Fig. 96). The effect of F-GSA on Akt and GSK-3f3 phosphorylation could be reversed by pre-treating the cells with increasing concentrations of anti-ci51 antibody (Fig. 96). In comparison, native GSA as well as anti-o531' antibody had nb effect on the' phosphorylation of Akt (Figs. 90 and 9D).

H These r�sults thus indicated that F-GSA induces apoptosis via an * integrin/FAK/AktJGSK-33/caspase-3 pathway.

Discussion [0098] In the present study, it was found that a simple column process can be used to promote fibrillar protein formation in the presence of detergent (SOS or Zwittergent 3- 14) (Figs. 5 and 6)., By using this process it was possible to convert globular GSA into fibrillar form. The findings are show that numerous proteins with diverse structures, including both disease and non-disease associated proteins, are capable of forming fibril amyloid.

[0099] The results show that Superdex-200jand HW555 column are more efficient than Superdex-75)in converting proteins into fibrillar forms, Even though Superdex-200j and l-1W558 have different matrix composite, they have similar pore size that is bigger, * tha�.that of Superdex-75j Although GSA 8-200 was more potent than BSA-I-1W55S (Fig. BA), these findings suggest that appropriate bead pore size plays an important role in the column-induced fibril formation. Explanations include that the proteins are reshaped to' fibrillar form after entering the pores and passing through the long channel inside the beads. Alternatively, or in addition to, it may be a consequence of the greater overall stability resulting from factors such as an increase in van der Waals interactions in the bead.

[00100] In this study, it was found that the effect of Zwittergent 3-14 on the formation of fibrillar BSA from Superdex-200jchromatography was similar to or even better than that of SDS (Fig. 6). Thus zwitterionic detergents are also effective for promoting fibril formation. In addition, since unlike SDS, Zwittergent 3-14 contains both anionic and cationic properties, the results suggest that fibril formation may be stimulated by not just anionic but also cationic properties of the detergents.

[00101] Although native. BSA is not a ligand for integrin (Fig. 8B), F-BSA caused cellular apoptosis by binding to integrin a5f31 (Figs, 7 and 8). F-BSA mediates cell apoptosis by binding to integrin a5131 leading to the dephosphorylation of FAK(Tyr 397), Akt and GSK-3f3. F-BSAs produced in this study seem to deactivate integrin signaling pathway via a mechanism, different from that induced by All [00102] As BSA doS not have ROD, a unique bihding motif for integrin, the mechanism of binding of fibrillar BSA to integrin is likely not completely the same as molecules which has ROD in its sequence. Of note, even though some of the ROD containing peptides are cytotoxic, others such as fibronectin are not (Fornaro, et al. Journal of Biological Chemistty 278(50): 50402-504011: 2003).

ExampleS

[00103] It was found that Superdex-75j induced unfolded 138A, in the presence of 8M urea, to have a fibril formation. Recombinant VPI was also found to have a fibril formation induced by Superdex-75j and in the presence of about 8M urea. This was evidenced through enhanced ThT level (Figure 10) and cytotoxicity (Figure 11). The use of SM urea is not a limitation, other molar ratios will promote unfolding to the same or a lesser degree.

Example 4

Materials and Methods [00104] Materials. The antibody against TLR2 was obtained from Abcam. Anti-TLR2 monoclonal antibody (an antagonistic antibody) was purchased from eBios�ience.

Control IgG, fibronectin (FN), and horseradish p�roxidase-coupled anti-rabbit IgO secondary antibodies were purchased from Chemicon. Bovine serum albumin (BSA) was purchased from Bio Basic Inc. Anti-BSA antibody was obtained from Invitrogen.

Thioflavin T (ThT) and Sodium dodecyl sulfate (SDS) were purchased from Sigma.

[00105] Expression of VP3 in E. colt VP3 is a component of capsid proteins of foot-and-mouth disease virus (FMDV). The VP3 gene was amplified by PCR from the plasmid pIBSYI-PI (Yang, et al, The Journal of Gene Medicine 7:708-717: 2005) with 5'-CCGGGATCCMGCTTGGOAl [1 I CCCCGTGGdA-3' and 5'-CCGCTCGAGTTGGGU0000CGTCGAC-3' as primers, which introduced a BamHl site at the N-terminus and an Xhol site at the C-terminus, respectively. To facilitate the purification and assay of the recombinant E coil derived VP3, a T7 tag and His tag were attached to. the N-and C-terminus of the VP3 gene, respectively. After restriction enzyme digestion, the amplified gene was ligated between the BamHl and the Xhol site of pET24a (+) (Novagene, WI) and transformed into DH5ct competent cells. The identified positive clones were verified by sequencing. Plasmid pVP3, isolated from one of the positive clones, was used to transform E. coil BL2I (DES) competent cells.

Recombinant VP3 (rVP3) was purified after expression in E. coil according to the procedure described in Wang, et al. Vaccine 21:3721-3729: 2003.

[00106] Preparation of fibrillar proteins by column chromatography. For the preparation of BSA-S200 and FN-S200, 10 ml PBS-dissolved proteins (2 mg/mI) were prepared and SDS (10 %;. w/v) was subsequently added to the final concentration of I %. After sonication for 5 mm, the SOS-containing protein solution was subsequently 2.-cr?' applied to Suerdex-200J column (2.6 cm x 100 cm, Arnersham Biosciences) or Superdex-75j column, which were previously equilibrated with a buffer solution containing 25 mM Tris-l-ICI, pH &0, 1 mM EDTA, P.t M NaCI, and 0.05 % SDS.

Fractions containing proteins were pooled. The pooled fractions were then dialyzed against phosphate-buffered saline (PBS) for 4.5 h (three times: 1.5 h/time) in order to remove SOS.

(00107] Transmission electron microscope (TEM). For transmission electron microscope (TEM) analyses of proteins with or without processing through column chromatography, equal amount of proteins were applied to 200-mesh carbon-coated copper grids. Excess samptes were removed and the grids were air-dried. The protein-bearing grids were negatively stained with 1% (WN) phosphotungstic acid for I mm.

Transmission electron micrographs were recorded at 20,000-150,000x magnification at kVon a Hitachi H-7000 electron microscope.

(00108] Thioflavin I (ThT) fluorescence. Per fluorescence measurements, increasing concentrations of proteins were incubated with 20 pM ThT. After I h of incubation at room temperature, fluorescence was measured ii triplicate on a Wallac VICTOR2 1420 Multilabel Counter (Perkin Elmer life science). Excitation and emission wavelengths were 355nm and 535nm, respectively. ThT background signal from buffer was subtracted from corresponding measurements.

[00109] Cell lines. Murine macrophage cell line RAW 264.7 and human embryonic kidney cell line' (HEK 293T) were maintained at 37°C in Dulbecco's modified Eagles medium (DMEM) supplemented with 10% fetal bovine serum (PBS), 2 mM L-glutamine, units/mI penicillin, and 100 tig/mI streptomycin in a humidified atmosphere containing 6% CO2.

(00110] SDS-PAOE and Immunoblot analyses. Samples were separated on 10 or 12% SDS-PAGE gets in Hoefer vertical gel apparatuses (Amersham Biosciences), followed by electrophoretic transfer to polyvinylidene difluoride membranes (Pall Corporation). The membranes were blocked with 5% skimmed milk powder in PBST for I h, and incubated with primary antibody (5-10 pg/mI) in blocking buffer. The membranes were then washed in PBST, followed by incubation with horseradish peroxidase-conjugated secondary antibody (Chemicon). The antibodies were detected with chemiluminescence (SuperSignal West P1Cc, Pierce) by exposure to Biomax ML film (Eastman Kodak).

[00111] lmmunoprecipitation asay. RAW 264.7 cells were lysed in cold lysis buffer (Pierce) supplemented wfth protease inhibitor mixture (Sigma-Aldrich). Equal amount of protein NO beads were precoated with or without rVP3-S200, The beads were then incubated with RAW 264.7 cell lysate overnight at 4°C. The resultant beads were collected by centrifugation and washed three times with cold lysis buffer. Proteins from immunocomplexes were eluted by boiling in SOS sample buffer and analyzed by SDS-PAGE and immunoblotted with specific antibody.

(00112] Immunofluorescence and confocal microscopy. Subconfluent monolayers of RAW 234,7 cells1 grown on 12-mm glass coverslips in 24-well tissue culture dishes, were treated with BSA or BSA-S200 for I h at 4°C in Dulbecco's modified Eagle's medium (DMEM) without fetal bovine serum (FBS).. After treatment, the mpnolayers were washed with PBS and fixed with 4% paraformaldehyde. After fixation, the paraformaldehyde was removed and the monolayers were incubated with the primary antibodies for I h at room temperature. When double labeling was performed, cells were incubated with both antibodies together. The dilutions of the primary antibodiS were as follows: anti-TLR2 (1/100) and anti-BSA (1/200), After being washed three times with PBST, the cells were incubated with the appropriate secondary antibody conjugated with fluorescence, goat antkrabbit lgG (1/500; Alexa Fluor 488; Molecular Probes) or goat anti-mouse lgG (1/500; Alexa Fluor 555; Molecular Probes) for 30 mm at room temperature. Following this incubation, the coveralips were washed three times with PBST, mounted, and examined on a LSM 510 META confocal microscope.

[001133 Luciferase reporter gene assay Human TLR2 was tra.nsiently expressed in human embryonic kidney (HEK293T) cells and then assayed for their responsiveness to samples. HEK293T cells were transfected with pRK-FLAG-TLR2 which contains the human TLR2 gene or pcDNA3.1 as empty vector control; pNFkB-Luc, which contains a luciferase reporter gene regulated by the NF-kB binding sequence. The luciferase gene is expressed only when NF-kB binds to the binding sequence. To normalize for transfection efticiency, the cells were cotransfected with pci] NA3. I -3-gal. Plasmids were introduced into HEK2O3T cells by transfection using Liofectamine2000 (lnvitrcgen). Briefly, HEK293T cells were cultured in a 96-well plate at a concentration of 2.5 X io cells per well in 0.1 ml Dulbecco's modified Eagle's medium (DMEM) supplemented with I0% heat-inactivated fetal bovine serum (FBS), 100 units/ml penicillin and 100 pg/mI streptomycin sulfate at 37°Q overnight. Medium was replaced by Opti-MEMI (Invitrogen) just before transfection. The Transfection mixture was prepared by diluting 0.3p1 of Lipofectamine2000 in 25pl of OPTI-MEMI medium to which * O.lpg of plasmid DNA (0.01 pg /well pRK-FLAG-hTLR2 or pcDNA3.1 as empty vector, 0.07 pg/ well p5xNFkB-luc reporter plasmid (Stratagene) and 0.02 pg / well pcDNA3.1-f3gal) in 25p1 of OPTI-MEMI was then added after a 20 minutes incubation at room temperature. The DNA-Lipofectamine2000 mixture was then added to the cells and mixed by gently shaking. After 24 hours of incubation at 37°C in 5% C02, the cells were stimulated with samples. As positive controls, cells were stimulated with the TLR2 ligand Pam3CSK4 (InvivoGen). After 6 hours1 cells were lysed and assayS for luciferase activity using the luciferase assay system (Promega) according to the manufacturer's instructions. Cells were washed twice with lOOpI of PBS and lysed in lOOpl of passive lysis buffer (Promega). Twenty p1 cell lysate was used to measure luciferase activity. The luciferase activity of each sample was normalized to the 13-galactosidase activity. Experimental data were expressed as the fold increases over those of unstimulated.control cells transfected with empty vector.

[00114] Cytokine quantification by ELISA. Transiently transfected HEK293T cells that expressed TLR2 as well as murine macrophage cell line RAW264.7 were stimulated for 6 or 24 hours respectively with TLR2-specific ligand or fibrillar proteins.

Cell culture supernatants were collected and analyzed using cytokine-specific ELISAs (IL-S, IL-B and TNF-a EL1SAs from Biosource International), performed according to the, manufacturer's protocol.

* Figures g.-rrr [00115] Figure 12. Superdex-200j chromatography promotes the formation of fibrillar proteins. TEM images show fibrillar structures of BSA-S200, rVPS-S200, and Crcn FN-S200 prepared from supercfex200Jchromatography (B, C, and E). Natural forms of BSA and FN, which are as controls, show globular structure under TEM images (A and C). (F and 0), incubation of BSA-S200 or FN-S200 with 2OpM amyloid-specific dye ThT results in enhanced fluorescence of ThT, when compared with natural forms of BSA or FN. Ths values are from three independent measurements, Data are shown as an average � SD from n = 3.

(00116] Figure 13. Fibrillar proteins interact with TLR2. (A), Lysate from RAW 264.7 cells was incubated with rVP3-S200 immobilized on protein NO beads or protein NO beads alone for overnight; the protein AIG beads-bound proteins were separated by SDS-PAOE and immunobloffed with anti-TLR2 antibody or anti-FMDV antibody.

BSA or BSA-S200 was adsorbed to RAW 264.7 monolayers at a concentration of 0.3 jtM for 1 h at 4°C. The cells were processed for IF staining as described in Materials and Methods, I3SA or BSA-S200 was stained with antiJ3SA antibodies and visualized with Alexa Fluor 488 (green) (B and E), and the TLR2 was stained with ahti-TLR2 antii2odies and visualized with Alexa Fluor 555 (red) (C and F). Arrows in the merged image-(G) point to some of the co-localized areas.

[00117] Figure 14. Fibrillar proteins signal through ILR2. HEK293/TLR2 cells were stimulated vith (A) 0.3pM rVP1; (B) 0.2pM BSA, BSA-8200, FN, or FN-S200.

After 8 I-i, the cells were lysed, and NFicB reporter luciferase levels were measured, (C), HEK23ITLR2 celIa were stimulated with pam3csk4 (0.5 pg/mI) or increased concentrations of SDS. After 6 h, the cells were lysed, and NFKF3 reporter luciferase levels were measured. (D), HEK293lTLR2 cells were pretreated with 10 pg/mI neutralizing anti-TLR2 antibody or control IgO for I h. Cells were then incubated with pam3cslc4 (0.5 pg/mI), BSA-S200 (0.2pM), FN-S200, or rVP3-S200 (0.2pM). After*6 h, the cells were lysed, and NJFKB reporter luciferase levels were measured. The values are from three independent measurements, Data are shown as an average * SD from n 3.

[00118] Figure 15. Fibrillar proteins-induced cytokine production is through TLR2. (A), RAW 264.7 cells were incubated with different concentrations of BSA or BSA-S200. After 24 h, culture medium was analyzed for 1L6 using ELISA. (B), HEK293/TLR2 cells were pretreated with 10 pg/mI neutralizing anti-TLR2 antibody or control IgO for 1 h. Cells were then incubated with pam3csk4 (0.5 pg/mI), IBSA-200 (0.2 pM), FN-8200 (0.2 pM), or rVP3-S200 (0.2 pM). After 6 h, culture medium was analyzed for IL-8 using ELISA, (C), RAW 264.7 cells were pretreated with 10 pg/nil neutralizing anti-TLR2 antibody or control IgO for I h. Cells were then incubated with BSA200 (0,2 pM) or FN-8200 (0.2 pM). After 24 h, culture medium was analyzed for IL-S using ELISA. The values are from three independent measurements. Data are shown as an average � SD from n = 3.

Results [00119] Proteins after passing Suerdex-2O0)column exhibit amyloid-like fibrillar properties. To determine the structural characteristics of proteins after processing through Superdex-200) column; a transmission electron microscope (TEM) and Thioflavin T (ThT) assay were used. The TEM analyses revealed that BSA-S200, rVP3- 6200, and FN-5200 showed fibrillar structure (Figure 126, 12C, and 12E). On the contrary, natural form of BSA and FN exhibited spherical structure (Figure 12A and 120). Next, the fluorescent emission of amyloid-like fibrils were examined with the * specific dye ThT, which was incubated with th! proteins. The data showed that BSA * S200 and FN-S200 enhanced fluorescent emission of ThY in a dose-dependent manner (Figure 12F and 120).

* (00120] Fibrillar proteins activate TLR2. Stimulation of human cells overexpressing TLR2 with rVPI (0.3 p M), BSA-S200 (0.2 pM) or FN-S200 (0.2 p M) resulted in the significant activation of NFKB, while natural form of GSA and FNdid not (Figure 14A and 146). To further* investigate the specificity of TLR2, TLR2-expressed HEK293T cells were pretreated with anti-TLR2 antibody for I h, the cells were then stimulated with * pam3csk4 (0.5 g/ml), BSA-5200 (0.2 gM), FN-8200 (0.2 pM), or rVP3-5200 (0.2 jiM).

pam3csk4 is a known ligand for TLR2 and served as positive control. After 6 h incubation, cells were lysed and NFKB activation was determined. Pretreatment with antkTLR2 significantly reduced NFKB activity while pretreatment with the isotype antibody control did not (Figure 14D). Since SOS was used in the preparation of fibrillar proteins, the effect of 505 on TLR2 activation was also examined, The data revealed that SOS with increasing concentrations had no effect on the activation of TLR2 (Figue 140). Of note, BSA treated with SOS and eluted from a Superdex-75 column (BSA- 875) also showed a TLR2 activation effect but to a lesser degree than BSA-5200.

[00121] Release of cytokine induced by fibrillar proteins. RAW 254.7 cells were incubated with different concentrations of BSA or BSA-S200. After 24 h, culture medium was analyzed for lL-6 using ELISA. BSA-S200 but not BSA induced IL-S production in a dose-dependent manner (Figure ISA). To evaluate the involvement of TLR2 in the cytokine production, TLR2 blocking antibody was used for further study.

Both HEK2O3T cells expressing TLR2 (Figure 158) and RAW 254.7 cells (Figure 150) were pretreated with anti-TLR2 antibody or control lgG for I h, followed by stimulation of cells with pani3csk4 (0.5 p.g/n'I), BSA-S200 (0.2.tM), FN-S250 (0.2 1M), or rVP3-S200 (0.2 jiM) and measurement of IL-B and lL-6 production. The presence of BSA-S200, FN-8200, and rVP3-S200 led to an increased level of IL-B and IL-S produced from TLR2-expressing HEK2O3T or RAW 264.7 cells. On the other hand, pretreatment of anti-TLR2 antibody but not control IgO significantly reduced the cytokine prdduction (Figure 15B and.150).

[001223 Fibrillar proteins interact with TLR2. To analyze the binding of rVP3-S200 to TLR2 on RAW 264.7 cells1 an imniunoprecipitation protocol was used that exposed RAW cell 1ysats to rVP3-8200 coated beads or control beads, Incubation of rVP3- 8200 linked beads but notcontrol beads with RAW cell lysates revealed that rVP3-5200 bound to TLR2 (Figure 13A). To further investigate whether BSA-S200co-localized with TLR2J immunofluorecence-confocal microscopy was performed. BSA or I3SA- 8200 was added to RAW 264.7 cells at 4°C for I h, and localization of 135A or BSA- 8200 in relation to TLR2 was determined by oonfocal microscopy. Results suggested that BSA-S200 but not BSA co-localized with TLR2 (figure 138-0).

Discussion [00123] Immunoprecipitation and immunofluorescence studies revealed that fibrillar proteins bound to TLR2 (Figure 13). TLR2 is a member of toll-like receptors which mediate the cellular response to conserved molecular patterns shared by microorganisms. TLR2 recognizes varieties of ligands (Miyake. Seminars in Immunology 19:3-10: 2007; Kaisho, !t al. Biochimica �t Biophysica Acta 1589:1-13: 2002) and facilitates macrophage production of cytokine (TsuJi, et al. Infection and Immunity 68:6883-6890: 2000; Basu, et al. The Journal of Biological Chemistiy 279:7370-7377: 2004). In this study, it was found that column-induced fibrillar proteins induced rL-6 production in RAW 264.7 cells in a dose-dependent manner (Figure ISA).

Pretreatment of RAW 264.7 (Figure 150) or TLR2 expressing HEK293T cells (Figure and 1SB) with anti-TLR2 antibodies diminished cytokine production induced by fibrillar proteins. These data suggest column-induced fibrillar proteins represent an agonist of TL.R2 and induce cytokine release from immune cefls.

1001241 Several studies have demonstrated toll-like receptors as adjuvant receptors (Hawkins, et al. The Journal of Pharmacology and Experimental Therapeutics 300:655- 661: 2002). Freund adjuvant induces TLR2 expression in the liver of mice (Lim.

International Immunopharmacology 3:115-118: 2003). tLR2 mediates the adjuvant activity of its ligand, lipoprotein (lshii, et al. Journal of clinical Immunology 27:363-371: 2007). TLR2 and TLR4 are also involved in the immune response of BCG-CWS, constituents of mycobacteria as an effective immune adjuvant (Tsuji, et al. Infection and Immunity 68:6883M890: 2000), This �tudy is related to the findings of fibrillar proteins that induce cytokine production through activation of TLR2. The conversion of an antigen to fibrillar form increases the antigenjcity of the antiged. Therefore, no added adjuvant is needed.

[00125] Among these TLRs, TLR2 recognizes a broad range of ligands, euch as gram-positive cell walls (Yoshimura, et al. J Immunol 163:1-5: 1999), atypical lipopolysaccharides (LPS) (Bainbridge, et a!. Cellular Microbiology 8:120-129: 2006; Reife, et al. CellUlar Microbiology 8:857868: 2006; Jotwahi, et al. European Journal of Immunology 33:2980-2986: 2003), porins (Massari, et a!. J lmmunol 176:2373-2380: 2006; Singleton1 et al. J Immunol 174:3545-3550: 2005), peptidoglycan (PON) (Tsuji, et al. Infection and Immunity 68:6883-6890: 2000; Uehori, et al. Infection and Immunity 71: 4238-4249: 2003), lipoarabinomannan (UnderhUt, et at. Proc Nat Aced So! 96:14459- 14463: 1999; Means, et at. J Immunol 163:3920-3927: 1999; Tapping1 at at. Journal of Endotoxin Research 9:264-268: 2003), a phenol-soluble modutin (Hajjar, at at. J lmmunol 166:15-19: 2001), virions (Compton, at at. Journal of Virology 77:4588-4596: 2003), glycoinositotphospholipids (Campos, at at. J Immunol 167:416-423: 2001), gtycolipids (Opitz, et at. The Journal of Biological Chemistry 276:22041-22047: 2001), lipid A (Onier, at a!. lntemational Journal of Cancer 81:755-760: 1999; Onier, et al. Clinical & Experimental Metastas/s 17:299-306: 1999), glycolipoprotein (Lopez, et at. J Immune) 170:2409-2416: 2003), lipoprotein&tipopeptides (Ozinsky, at at. Proc Nat Acad Sd 97:13766-13771: 2000; Hirschfetd, et at. J lmmunol 163:2382-2386: 1999) zymosan. (Underhill, at a!. Nature 401:811-815: 1999), heat shock proteins (HSPs) (Ohashi, et at. J Immunol 164:558-561: 2000; Asea, at al, The Journal of Biological Chemistry 277:15028-15034: 2002), extracellular matrix (ECM) components (biglycan or hyaluronan) (Schaefer, at at. The Journal of Cilnical Investigation 115:2223-2233: 2005; Wang, at at. Nature Medicine 11:1173-1179: 2005), high-mobility group box I (FIMGBI) (Park, at a!. The Journal of Biological Chemistry 279:7370-7377: 2004), bacterial or viral proteins (l3asu, at at. The Journal of Biologibal Chemistry 282:1039- 1050: 2007), ilpophosphoglycan (LPG) (Becker, at a!. Molecular and Biochemical Parasitology 130:65-74: 2003), macrophage-activating lipopeptide-2 (MALP-2) (lakeuchi, at a!. International Immunology 13:933-940: 2001; Schneider, at al. Gut 53:355-361: 2004), heat-kitled bacterial or yeast (Flo, at at. J Immunol 164:2064-2069: 2000; Netea, at a!. J Immunoll72:3712-3718: 2004; Taylor, at at. The Journal of allergy and Clinical Immunology 117:1148-1154: 2004), outer membrane protein A (Jeannin, et at Nature Immunology 1:502-509: 2000), soluble factors (Wyttie, at at. J Immunol 165:7125-7132: 2000; Henneke, at at. J Immunol 167:7089-7076: 2001), and lipoteichoic acid (LTA) (Schwahdner, et at. The Journal of Biological Chemistry 274:17406-17409: 1999; Han, et at. Infection and lrnmunity 71:5541-5548: 2003; Sohroder, at at. The Journal of Biological Chemistry 278:15587-15594: 2003). Studies �tso suggest that the variety of tigands recognized by TLR2 is due to the formation of heterodimer with other TLRs, TLRI Or TLR6 (Bauer, et at. Proc Nat Aced.Sci 98:9237- 9242: 2001; Sugawara, et al. Microbiology and Immunology 47:327-336: 2003; Takeuchi, et al. Gene 231:59-65: 1999). The heterodimer of TLRIITLR2 has been suggested to recognize triacylated lipoproteins, while TLR2/TLR6 recognizes diacylated lipoproteins (Takeuchi, et al. J lmmunol 169:10-14: 2002).

-pesentIy-considered4o-be-the-rnst. practica1-and-prefer4edirnpIernentations1it1s4o-be- -understood that-the-dise4osureneect.netbe-4imited-4e.Ahe-disG1osedexempiaIy -pIernentations*4t= =is=apparent-that-medificatiens-and-adaptetienz of thoso -nedif1eations-and-similar-arcangementa-ineiuded-within--the-spirit and* scope of the- -cIa s1-the--scope-of--whieh-should-be-acoerded--the-breadesf4nterpretation so -as to -encompass-a.l1*such-4nodifioations-and--simiIac.-struGtuces. The present -disclosuce.

-neIudesany-and-aIkimplementationsof4he$oI1owing claim&.

Claims (12)

1. CLAIMS1. An isolated fibrillar structure albumin protein for use in medicine.
2. 2. The isolated protein of claim 1, wherein the protein functions as an adjuvant.
3. 3. An isolated fibrillar structure albumin protein for use in the treatment of cancer.
4. 4. Use of an isolated fibrUlar structure albumin protein in the manufacture of a medicament for the treatment of cancer.
5. 5. Use of claim 4, wherein the fibrillar structure albumin protein induces cell death by modulating an Akt signaling pathway.
6. 6. Use of claim 4 or claim 5, wherein the cancer is selected from kidney, breast, lung or ovarian cancel.
7. 7. Use of an isolated fibrillar structure albumin protein in the manufacture of a medicament for use as an adjuvant.
8. 8. Use of claim 7, wherein the adjuvant is a vaccine adjuvant.
9. 9. Use of claim 7, wherein the adjuvant is an immunologic adjuvant.
10. 10. A pharmaceutical composition comprising: an isolated fibrillar structure albumin protein: and a pharmaceutically acceptable carrier.
11. 11. The pharmaceutical composition of claim 10, wherein the composition is in the form of a powder, a cream, a gel, a salve, an ointment, a solution, a tablet, a capsule, a spray or a patch.
12. 12. An isolated fibrillar structure albumin protein substantially as described herein with reference to Example 4 and Figure 129.